Added alternative calculations for time remaining
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@ -164,7 +164,7 @@ const std::tuple<uint8_t, float, std::string, float> waybar::modules::Battery::g
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bool total_energy_full_exists = false;
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uint32_t total_energy_full_design = 0;
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bool total_energy_full_design_exists = false;
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uint32_t total_capacity{0};
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uint32_t total_capacity = 0;
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bool total_capacity_exists = false;
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std::string status = "Unknown";
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@ -176,191 +176,232 @@ const std::tuple<uint8_t, float, std::string, float> waybar::modules::Battery::g
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// Some battery will report current and charge in μA/μAh.
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// Scale these by the voltage to get μW/μWh.
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uint32_t capacity;
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bool capacity_exists;
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// uint32_t capacity (bool pass) {
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// uint32_t c = 0;
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// if (fs::exists(bat / "capacity"))
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// c = std::ifstream(bat / "capacity");
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// else if (pass)
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// c = charge_now(pass) / charge_full(pass);
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// return c;
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// }
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// uint32_t current_now (bool pass) {
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// uint32_t c = 0;
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// if (fs::exists(bat / "current_now"))
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// std::ifstream(bat / "current_now") >> c;
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// else if (fs::exists(bat / "current_avg"))
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// std::ifstream(bat / "current_avg") >> c;
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// else
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// c = power_now(pass) / voltage_now(pass);
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// return c;
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// }
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// uint32_t voltage_now () {
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// uint32_t v = 0;
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// if (fs::exists(bat / "voltage_now"))
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// std::ifstream(bat / "voltage_now") >> v;
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// else if (fs::exists(bat / "voltage_avg"))
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// std::ifstream(bat / "voltage_avg") >> v;
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// else
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// }
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uint32_t capacity = 0;
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bool capacity_exists = false;
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if (fs::exists(bat / "capacity")) {
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capacity_exists = true;
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std::ifstream(bat / "capacity") >> capacity;
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} else {
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capacity_exists = false;
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capacity = 0;
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capacity_exists = true;
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std::ifstream(bat / "capacity") >> capacity;
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}
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uint32_t current_now;
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bool current_now_exists;
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uint32_t current_now = 0;
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bool current_now_exists = false;
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if (fs::exists(bat / "current_now")) {
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current_now_exists = true;
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std::ifstream(bat / "current_now") >> current_now;
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current_now_exists = true;
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std::ifstream(bat / "current_now") >> current_now;
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} else if (fs::exists(bat / "current_avg")) {
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current_now_exists = true;
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std::ifstream(bat / "current_avg") >> current_now;
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} else {
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current_now_exists = false;
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current_now = 0;
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current_now_exists = true;
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std::ifstream(bat / "current_avg") >> current_now;
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}
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uint32_t voltage_now;
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bool voltage_now_exists;
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uint32_t voltage_now = 0;
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bool voltage_now_exists = false;
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if (fs::exists(bat / "voltage_now")) {
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voltage_now_exists = true;
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std::ifstream(bat / "voltage_now") >> voltage_now;
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voltage_now_exists = true;
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std::ifstream(bat / "voltage_now") >> voltage_now;
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} else if (fs::exists(bat / "voltage_avg")) {
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voltage_now_exists = true;
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std::ifstream(bat / "voltage_avg") >> voltage_now;
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} else {
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voltage_now_exists = false;
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voltage_now = 0;
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voltage_now_exists = true;
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std::ifstream(bat / "voltage_avg") >> voltage_now;
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}
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uint32_t charge_full;
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bool charge_full_exists;
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uint32_t charge_full = 0;
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bool charge_full_exists = false;
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if (fs::exists(bat / "charge_full")) {
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charge_full_exists = true;
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std::ifstream(bat / "charge_full") >> charge_full;
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} else {
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charge_full_exists = false;
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charge_full = 0;
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}
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uint32_t charge_full_design;
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bool charge_full_design_exists;
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uint32_t charge_full_design = 0;
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bool charge_full_design_exists = false;
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if (fs::exists(bat / "charge_full_design")) {
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charge_full_design_exists = true;
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std::ifstream(bat / "charge_full_design") >> charge_full_design;
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} else {
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charge_full_design_exists = false;
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charge_full_design = 0;
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}
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uint32_t charge_now;
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bool charge_now_exists;
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uint32_t charge_now = 0;
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bool charge_now_exists = false;
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if (fs::exists(bat / "charge_now")) {
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charge_now_exists = true;
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std::ifstream(bat / "charge_now") >> charge_now;
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} else if (capacity_exists && charge_full_exists) {
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// charge_now is missing on some systems, estimate using capacity and charge_full.
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charge_now_exists = true; // this could be debatably set to false (same for all properties below)
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charge_now = (capacity * charge_full) / 100;
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} else {
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charge_now_exists = false;
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charge_now = 0;
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}
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if (!capacity_exists && charge_now_exists && charge_full_exists) {
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if (charge_full != 0) {
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capacity_exists = true;
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capacity = charge_now * 100 / charge_full;
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}
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}
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uint32_t power_now;
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bool power_now_exists;
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uint32_t power_now = 0;
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bool power_now_exists = false;
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if (fs::exists(bat / "power_now")) {
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power_now_exists = true;
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std::ifstream(bat / "power_now") >> power_now;
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} else if (current_now_exists && voltage_now_exists) {
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power_now_exists = true;
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power_now = ((uint64_t)current_now * (uint64_t)voltage_now) / 1000000;
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} else {
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power_now_exists = false;
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power_now = 0;
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}
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}
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if (!current_now_exists && power_now_exists && voltage_now_exists) {
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if (voltage_now != 0){
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current_now_exists = true;
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current_now = (uint64_t)power_now * 1000000 / (uint64_t)voltage_now;
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}
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}
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if (!voltage_now_exists && power_now_exists && current_now_exists) {
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if (current_now != 0) {
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voltage_now_exists = true;
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voltage_now = (uint64_t)power_now * 1000000 / (uint64_t)current_now;
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}
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}
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uint32_t energy_now;
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bool energy_now_exists;
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uint32_t energy_now = 0;
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bool energy_now_exists = false;
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if (fs::exists(bat / "energy_now")) {
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energy_now_exists = true;
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std::ifstream(bat / "energy_now") >> energy_now;
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} else if (charge_now_exists && voltage_now_exists) {
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energy_now_exists = true;
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energy_now = ((uint64_t)charge_now * (uint64_t)voltage_now) / 1000000;
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} else {
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energy_now_exists = false;
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energy_now = 0;
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}
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if (!charge_now_exists && energy_now_exists && voltage_now_exists) {
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if (voltage_now != 0){
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charge_now_exists = true;
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charge_now = (uint64_t)energy_now * 1000000 / (uint64_t)voltage_now;
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}
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}
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if (!voltage_now_exists && energy_now_exists && charge_now_exists) {
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if (charge_now != 0) {
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voltage_now_exists = true;
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voltage_now = (uint64_t)energy_now * 1000000 / (uint64_t)charge_now;
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}
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}
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uint32_t energy_full;
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bool energy_full_exists;
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uint32_t energy_full = 0;
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bool energy_full_exists = false;
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if (fs::exists(bat / "energy_full")) {
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energy_full_exists = true;
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std::ifstream(bat / "energy_full") >> energy_full;
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} else if (charge_full_exists && voltage_now_exists) {
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energy_full_exists = true;
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energy_full = ((uint64_t)charge_full * (uint64_t)voltage_now) / 1000000;
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} else {
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energy_full_exists = false;
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energy_full = 0;
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}
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if (!charge_full_exists && energy_full_exists && voltage_now_exists) {
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if (voltage_now != 0){
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charge_full_exists = true;
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charge_full = (uint64_t)energy_full * 1000000 / (uint64_t)voltage_now;
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}
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}
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if (!voltage_now_exists && energy_full_exists && charge_full_exists) {
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if (charge_full != 0) {
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voltage_now_exists = true;
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voltage_now = (uint64_t)energy_full * 1000000 / (uint64_t)charge_full;
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}
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}
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uint32_t energy_full_design;
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bool energy_full_design_exists;
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uint32_t energy_full_design = 0;
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bool energy_full_design_exists = false;
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if (fs::exists(bat / "energy_full_design")) {
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energy_full_design_exists = true;
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std::ifstream(bat / "energy_full_design") >> energy_full_design;
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} else if (charge_full_design_exists && voltage_now_exists) {
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energy_full_design_exists = true;
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energy_full_design = ((uint64_t)charge_full_design * (uint64_t)voltage_now) / 1000000;
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} else {
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energy_full_design_exists = false;
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energy_full_design = 0;
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}
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if (!charge_full_design_exists && energy_full_design_exists && voltage_now_exists) {
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if (voltage_now != 0){
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charge_full_design_exists = true;
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charge_full_design = (uint64_t)energy_full_design * 1000000 / (uint64_t)voltage_now;
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}
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}
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if (!voltage_now_exists && energy_full_design_exists && charge_full_design_exists) {
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if (charge_full_design != 0) {
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if (!voltage_now_exists) {
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if (power_now_exists && current_now_exists && current_now != 0) {
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voltage_now_exists = true;
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voltage_now = (uint64_t)energy_full_design * 1000000 / (uint64_t)charge_full_design;
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voltage_now = 1000000 * power_now / current_now;
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} else if (energy_full_design_exists && charge_full_design_exists && charge_full_design != 0) {
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voltage_now_exists = true;
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voltage_now = 1000000 * energy_full_design / charge_full_design;
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} else if (energy_now_exists) {
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if (charge_now_exists && charge_now != 0) {
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voltage_now_exists = true;
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voltage_now = 1000000 * energy_now / charge_now;
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} else if (capacity_exists && charge_full_exists) {
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charge_now_exists = true;
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charge_now = charge_full * capacity / 100;
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if (charge_full != 0 && capacity != 0) {
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voltage_now_exists = true;
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voltage_now = 1000000 * energy_now * 100 / charge_full / capacity;
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}
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}
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} else if (energy_full_exists) {
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if (charge_full_exists && charge_full != 0) {
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voltage_now_exists = true;
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voltage_now = 1000000 * energy_full / charge_full;
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} else if (charge_now_exists && capacity_exists) {
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if (capacity != 0) {
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charge_full_exists = true;
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charge_full = 100 * charge_now / capacity;
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}
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if (charge_now != 0) {
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voltage_now_exists = true;
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voltage_now = 10000 * energy_full * capacity / charge_now;
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}
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}
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}
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}
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if (!capacity_exists) {
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if (charge_now_exists && charge_full_exists && charge_full != 0) {
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capacity_exists = true;
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capacity = 100 * charge_now / charge_full;
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} else if (energy_now_exists && energy_full_exists && energy_full != 0) {
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capacity_exists = true;
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capacity = 100 * energy_now / energy_full;
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} else if (charge_now_exists && energy_full_exists && voltage_now_exists) {
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if (!charge_full_exists && voltage_now != 0) {
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charge_full_exists = true;
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charge_full = 1000000 * energy_full / voltage_now;
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}
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if (energy_full != 0) {
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capacity_exists = true;
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capacity = charge_now * voltage_now / 10000 / energy_full;
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}
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} else if (charge_full_exists && energy_now_exists && voltage_now_exists) {
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if (!charge_now_exists && voltage_now != 0) {
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charge_now_exists = true;
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charge_now = 1000000 * energy_now / voltage_now;
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}
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if (voltage_now != 0 && charge_full != 0) {
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capacity_exists = true;
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capacity = 100 * 1000000 * energy_now / voltage_now / charge_full;
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}
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}
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}
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if (!energy_now_exists && voltage_now_exists) {
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if (charge_now_exists) {
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energy_now_exists = true;
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energy_now = charge_now * voltage_now / 1000000;
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} else if (capacity_exists && charge_full_exists) {
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charge_now_exists = true;
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charge_now = capacity * charge_full / 100;
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energy_now_exists = true;
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energy_now = voltage_now * capacity * charge_full / 1000000 / 100;
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} else if (capacity_exists && energy_full) {
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if (voltage_now != 0) {
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charge_full_exists = true;
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charge_full = 1000000 * energy_full / voltage_now;
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charge_now_exists = true;
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charge_now = capacity * 10000 * energy_full / voltage_now;
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}
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energy_now_exists = true;
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energy_now = capacity * energy_full / 100;
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}
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}
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if (!energy_full_exists && voltage_now_exists) {
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if (charge_full_exists) {
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energy_full_exists = true;
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energy_full = charge_full * voltage_now / 1000000;
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} else if (charge_now_exists && capacity_exists && capacity != 0) {
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charge_full_exists = true;
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charge_full = 100 * charge_now / capacity;
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energy_full_exists = true;
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energy_full = charge_now * voltage_now / capacity / 10000;
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} else if (capacity_exists && energy_now) {
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if (voltage_now != 0) {
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charge_now_exists = true;
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charge_now = 1000000 * energy_now / voltage_now;
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}
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if (capacity != 0) {
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energy_full_exists = true;
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energy_full = 100 * energy_now / capacity;
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if (voltage_now != 0) {
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charge_full_exists = true;
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charge_full = 100 * 1000000 * energy_now / voltage_now / capacity;
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}
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}
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}
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}
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if (!power_now_exists && voltage_now_exists && charge_now_exists) {
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power_now_exists = true;
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power_now = voltage_now * current_now / 1000000;
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}
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if (!energy_full_design_exists && voltage_now_exists && charge_full_design_exists) {
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energy_full_design_exists = true;
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energy_full_design = voltage_now * charge_full_design / 1000000;
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}
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// Show the "smallest" status among all batteries
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if (status_gt(status, _status))
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status = _status;
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